Solutions of organic mercury



Reiuued Aug. 31, 1954 SOLUTIONS OF ORGANIC MERCURY COMPOUNDS Frank J. Sowa, Oranford, N. J.

No Drawing. Original No. 2,411,815, dated No-' vember 26, 1946, Serial No. 489,244, May 31, 1943. Application for reissue April 22, 1953,

Serial No. 350,536

6 Claims.

This invention relates to solutions of organic mercury compounds [and to methods for producing and using such solutions] having in solution more of the organic mercury compound than the amount normally soluble in the same amount of solvent.

It is well known that the aryl and aralkyl mercury hydroxides and salts are relatively insoluble in water. Thus, for example, phenyl mercuric acetate is soluble in water to the extent of about 1 part in 600 parts of water while phenyl mercuric chloride only dissolves to the extent of about 1 part to 20,000 parts of water. All known compounds having the general formula RHgX, wherein R is an aryl, aralkyl, alkaryl, or heterocyclic group, Hg is mercury, and X is an anion, exhibit similar low solubility in water and in many water miscible solvents such as alcohols, glycerols and the like.

Many, if not all, of these organic mercury compounds have high toxicity to bacteria and fungi and have other important uses in industry and medicine. However, because of their relatively low solubility it is not economically practical to ship the product in the form ofa solution and it frequently is difllcult or impossible for the user to produce solutions having the desired concentration of the mercury compound therein. Moreover, in many applications of such solutions it is impossible to use suflicient water or solvent for the mercury compound to obtain the required concentration thereof in the product without undesired dilution or unbalancing of a formula.

I have discovered that the solubility of mercury compounds of the R--Hg--X type, in water and in mixtures of water with solvents such as alcohols, glycerols and the like, can be materially increased provided ammonium hydroxide and a soluble ammonium salt are present in the solution. Some of the ammonium salts may be used for this purpose without adding ammonium hydroxide to the solution, whereas in at least one instance I have found it possible to dissolve a relatively water insoluble organic mercury compound in a solution of ammonium hydroxide alone. However, in most instances it is necessary to use both ammonium hydroxide and an ammonium salt in order to dissolve substantial amounts of the mercury compounds in Matter enclosed in heavy brackets I: appears in the original patent but forms no part of this reissue specification; matter printed in italics indicates the additions made by reissue.

aqueous solutions. It is also found in general that the pH value of the solution should be above 7 and preferably in the range of about 7.2 to 9.0.

Solutions of this character may contain up to or more by weight of the aryl, 'aralkyl or alkaryl mercury compound and can be used to apply such compounds to fabrics, leather, paper, sheets or films, or for admixture with paints or latex solutions, and they may be added to dispersions and emulsions of water proofing or fabric treating compositions. They also may be used in carrying out various chemical reactions wherein high concentrations of mercury compounds are desirable or of advantage. The solutions may be caused to penetrate into fibers, or pores in material or they may be applied as a constituent of film forming, coating or impregnating compositions. Furthermore, the concentration of organic mercury compounds in medicinal and industrial formulae may be materially increased by practice in accordance with the present invention.

The principal objects of the present invention are to increase the solubility or concentration of organic mercury compounds in aqueous solutions; to provide new types of mercury containing germicidal compositions and products; to increase the resistance of products to the action of bacteria, fungi, mildew and the like; and to provide novel methods of producing and using solutions of organic mercury compounds having the general formula RHg-X, in which R is an aryl, aralkyl, alkaryl or heterocyclic group, Hg is mercury and X is an anion.

Particular objects of the invention are to provide relatively concentrated solutions of phenyl mercury compounds a d to provide methods for using such solutions the treatment of fabrics, leather and other fibrous, porous or textile products to render them bacteriostatic, fungistatic and mildew resistant.

These and other objects and features of the present invention will appear from the following description thereof in which specific examples are cited to indicate the nature of the invention and typical applications and embodiments thereof, but without intending to limit the scope of the invention thereby.

My investigations indicate that all of the orcases ganic mercury compounds which have the general formula R-Hg-x will dissolve to a greater extent in aqueous solutions containing an ammonium compound than they will in water or the solvent alone. It appears in most instances that the solubility of the mercury compound in aqueous solvents is markedly increased when the solution also contains both an ammonium salt and ammonium hydroxide.

It has been found that in solutions according to the invention the phenyl mercury acetate or other organic mercury compound remains in stable aqueous solution uncombined with ammonium compound and that the use of ammonium compounds other than ammonium hydroxide ea:- erts a buflerin action. In those solutions in which triethanolamine is present, however, a reaction occurs between the organic mercury compound and the triethanolamine to form a reaction product in solution.

Among the ammonium salts I have used to increase the solubility of phenyl mercuric acetate in water, I may mention specifically ammonium sulphate, ammonium carbonate, triamrnonium phosphate, di-ammonium phosphate, ammonium borate, ammonium tetraborate, ammonium citrate, ammonium oxalate, ammonium lactate, ammonium formate and ammonium acetate. A 5% solution of any one of these salts has been found to be capable of dissolving from 4 to 12% of phenyl mercuric acetate provided some ammonium hydroxide is also present in the solution and preferably is added in suflicient quantities to give a final solution having a pH value above 7 and preferably in the range of from about 7.2 to 9.0. Of these salts it has been found that ammonium carbonate, diammonium phosphate,- tri-ammonium phosphate and ammonium borate are capable of use by themselves in increasing the solubility of phenyl mercuric acetate. No ammonium hydroxide need be added when using these salts.

Other compounds having the general formula RHg--X exhibit the same property of increased solubility in water containing ammonium compounds. Thus, phenyl mercuric hydroxide, phenyl mercuric borate, phenyl mercuric phthalate, phenyl mercuric gluconato, benayl mercuric acetate and pyridyl mercuric acetate are soluble to a creator extent in aqueous solutions of ammonium salts containing ammonium hydroxide, than they are in water alone.

Phenyl mercuric hydroxide is soluble in solutions of ammonium acetate or ammonium sulphate alone but this probably is due to a reaction of the hydroxide with the acetate or sulphate to produce some ammonium hydroxide in the solution. I have also discovered that phenyl mercuric aluconate is soluble in ammonium hydroxide alone. Solutions containing '15 grams of phenyl mercuric gluconats in 100 cc. oi water are obtained by simply adding enough lmrmmium hydroxide to keep the pH value around 8. Similarly, 20 grams of phenyl mercuric hydroxide may be dissolved in 100 cc. of water containing 40 grams or ammonimn alucunsto and having a pH value oi approaimatsly O.

Theamountoitbelfltmdappears to influence the mm; or the "our, compound and solutions containing from i to 20% of ammonium sulphate indicate that the maximum solubility of the mercury compound insuchsolutionsisposaiblewhenaboutieb of sulphate is used.

Inprcducingsolutiominaccordoncswithmy invention it is of course desirable to choose ammonium salts which will not react with the mercury compound to produce a more insoluble mercury compound. Thus, when endcavoring to increase the solubility at phenyl mercuric acetate, if ammonium chloride is used the relatively less wiuble phenyl mercuric chloride will be prodnced and may even precipitate from the solution. similarly, if ammonium thiocyanate is used the almost completely insoluble phenyl mercuric thiocyanate will precipitate. while these less soluble compounds are themselves dissolved to some extent in the ammoniacal ammonium salt solution, although almost completely insoluble in water, they are not soluble to the same extent as the acetate so that the apparent result when using ammonium chloride and ammonium thiocyanate or similar compounds, is to decrease the amount of the phenyl mercury acetate in solution. Such reactions, however, are to be avoided in the practice of my invention and ammonium salts selected which will not react with the mercury compound to produce a less soluble mercury compound.

In choosing an ammonium salt to increase the solubility of [ammonium] compounds of the R,I-IgX type it also appears that the action of ammonium salts of nitrogen containing acids are much less effective than are other salts. Thus the increase in solubility of phenyl mercuric acetate in an ammoniacal solution of ammonium nitrate is less than might have been expected. Similarly, the action of a few other ammonium salts is limited and relatively poor or negligible results are obtained when using ammonium fluoride, ammonium flue-silicate, ammonium chloride and ammonium llnolate. Nevertheless, the great majority of the ammonium salts appears to increase the solubility of the mercury compounds enormously and even the less active salts mentioned above appear to have some influence on the solubility of the R-Hg-x type of compounds.

In order to indicate typical and preferred solutions using ammonium salts in ammoniacal water solutions, having a pH value above 7 the following examples are cited.

cc. of 5% salt Grams of phenyl mercuric Ammonium lactate 8-12 Ammonium iormate 8-? run acetate Alcoholic solutions and mixtures of water with other water miscible solvents such as triethanol amine also exhibit the same ability to dissolve increased amounts of organic mercury compounds of the R-Hr-X type provided an ammonium compound is present. Thus, for ea- I. will: train: solutions at phenyl mersons acetate in water and methanol mine in accordance with the procem of my [copending] application mrial No. 443,304, tiled May 16, 1942, now Patent 2,623,121, it is sometimes diillcult to produce solutions oi the desired concentration. The addition of ammonium sulphate and ammonium hydroxide to such solutions overcomes this difliculty and not only increases the amount of the mercury compound which may be dissolved but greatly speeds up solution and results in the formation of solutions which are clear and very stable.

Solutions produced in accordance with; the present invention may be applied directly or after dilution with water, to fabrics, leather, paper or the like by spraying the solution thereon or by dipping or immersing material therein and the solution may be applied under pressure to insure the desired penetration of the solution into the pores or fibers of the articles being treated. They also may be added to textile treating baths or finishes such as alkaline solutions of cellulose ethers, suspensions of waxes, resins or other similar materials. The ammoniacal or alkaline nature of solutions embodying my invention renders them particularly suitable for admixture with latex dispersions, and suspension of rubber, colloids, waterproofing or fireproofing agents, or products such as casein paints and aqueous coating and impregnating compositions.

Products thus treated are rendered bacteriostatic, fungistatic, mildew resistant and germicidal by reason of the mercury compound deposited on or in the product or admixed therewith. The amount of the solution used in any particular application will vary considerably but when employed to treat textile fabrics the weight of the mercury compound in the treated material should generally equal about 0.02 to 1.0% and preferably about 0.5% of the weight of the fabric.

While I have suggested numerous compositions and uses for solutions produced in accordance with the present invention it will be understood that many other uses and formulae will suggest themselves to those skilled in the art and be apparent from the foregoing description of the invention. In view thereof it is intended that the particular composition and uses of solutions specifically described above be considered as illustrative only since the scope of my invention is defined by the following claims.

I claim:

[1. A solution of a phenyl mercury compound in an aqueous solvent containing from about 1 to 20 parts by weight of a salt selected from the group consisting of ammonium sulfate, ammonium carbonate, tri-ammonium phosphate, diammonium phosphate, mono-ammonium phosphate, ammonium borate, ammonium tetraborate, ammonium citrate, ammonium oxalate, ammonium lactate, ammonium formate, ammonium acetate, and ammonium gluconate, together with sufficient ammonium hydroxide to maintain the pH value of the solution above 7, the amount of the phenyl mercury compound in solution exceeding the amount soluble in the aqueous solvent of the solution] [2. A solution containing phenyl mercury acetate dissolved in an aqueous solvent containing an ammonium salt selected from the group consisting of ammonium sulfate, ammonium carbonate, tri-ammonium phosphate, di-ammonium phosphate, mono-ammonium phosphate, ammonium borate, ammonium tetra-borate, ammonium citrate, ammonium oxalate, ammonium lactate, ammonium formate, ammonium acetate, and ammonium gluconate, together with sufficient ammonium hydroxide to maintain the pH value of the solution above '1, the amount of the phenyl mercury acetate in solution exceeding the 3. An aqueous solution having a pH value not less than 7 and containing a phenyl mercury compound, triethanolamine, ammonium hydrox ide and ammonium sulfate, the amount of the phenyl mercury compound in solution being in excess of that soluble in the water of the solution.

4. An aqueous solution having a pH value not less than 7 and containing phenyl mercury acetate, triethanolamine, ammonium hydroxide and ammonium sulfate, the amount of the phenyl mercury compound in solution being in excess of that soluble in the water of the solution.

5. A method of increasing the stability of an aqueous solution containing phenyl mercury acetate and triethanolamine which comprises the step of adding ammonium hydroxide and ammonium sulfate thereto until the solution has a pH value of not less than 7.

6. A stable aqueous solution of an organic mercury compound having the formula wherein R is monophenyl, Hg is mercury and X is an anion, the said solution containing from about 1 to 20 parts by weight of an ammonium compound unreacted with the said organic mercury compound to avoid formation of an organic mercury compound having, in the presence of ammonium hydroxide, a lesser solubility in water than the initial organic mercury compound employed in forming the solution and which ammonium compound is selected from the group consisting of ammonium sulfate, ammonium carbonate, tri-ammonium phosphate, di-ammonium phosphate, mono-ammonium phosphate, ammonium borate, ammonium tetra-borate, ammonium citrate, ammonium oxalate, ammonium lactate, ammonium jormate, ammonium acetate and ammonium gluconate, together with sulficient ammonium hydroxide to maintain the pH value of the solution above 7 and in the range of from 7.2 to 9.0, the amount of the organic mercury compound in solution being in excess of the amount normally soluble in the same volume of aqueous solvent of the solution in the absence of ammonium compound.

7. A stable aqueous solution containing phenyl mercury acetate dissolved in an aqueous solvent containing from about 1 to 20 parts by weight of an ammonium compound unreacted with the phenyl mercury acetate to avoid formation of an organic mercury compound having, in the presence of ammonium hydroxide, a lesser solubility in water than phenyl mercury acetate and which ammonium compound is selected from the group consisting of ammonium sulfate, ammonium carbonate, tri-ammonium phosphate, di-ammonium phosphate, mono-ammonium phosphate, ammonium borate, ammonium tetra-borate, ammonum citrate, ammonium oxalate, ammonium lactate, ammonium formate, ammonium acetate and ammonium gluconate together with suflicient ammonium hydroxide to maintain the pH value of the solution above 7 and in the range of from about 7.2 to 9.0, the amount of the organic mercury compound in solution being in excess of the amount normally soluble in the same volume of aqueous solvent of the solution in the absence of ammonium compound.

8. A stable aqueous solution containing phenyl mercury acetate, ammonium hydroxide and 1 to 20 parts by weight of ammonium acetate, the

7 8 ammonium hydroxide being present in an FOREI N PATENTS amount to produce a pH value above 7 and in Number country t the range of from about 7.2 to 9.0, the amount of 546,493 Great Britain July 1 1943 phenyl mercury acetate in solution being in excess of that normally soluble in the water of 5 OTHER, REFERENCES the solution and the said phenyl mercury acetate being chemically uncombined with the ammonium hydroxide and the ammonium acetate.

Pesci: Gazz. Chim. ItaL, vol. 29 (1), page 394 (1899).

Pesci: Gazz. Chim. ItaL, vol. 39, page 148 References Cited in the me of this patent 10 (1909)- or the original patent Ilia/1:133; zm'ggeligigal Dictionary, Felice Le Mon- UNITED STATES PATENTS Chem. Abstracts. vol. 13, p. 1450 (1919).

Number Name Date 2,423,121 Sowa July 1, 1947 15 

